Abstract
BackgroundKinase activity of cGMP-dependent, type II, protein kinase (PRKG2) is required for the proliferative to hypertrophic transition of growth plate chondrocytes during endochondral ossification. Loss of PRKG2 function in rodent and bovine models results in dwarfism. The objective of this study was to identify pathways regulated or impacted by PRKG2 loss of function that may be responsible for disproportionate dwarfism at the molecular level.MethodsMicroarray technology was used to compare growth plate cartilage gene expression in dwarf versus unaffected Angus cattle to identify putative downstream targets of PRGK2.ResultsPathway enrichment of 1284 transcripts (nominal p < 0.05) was used to identify candidate pathways consistent with the molecular phenotype of disproportionate dwarfism. Analysis with the DAVID pathway suite identified differentially expressed genes that clustered in the MHC, cytochrome B, WNT, and Muc1 pathways. A second analysis with pathway studio software identified differentially expressed genes in a host of pathways (e.g. CREB1, P21, CTNNB1, EGFR, EP300, JUN, P53, RHOA, and SRC). As a proof of concept, we validated the differential expression of five genes regulated by P53, including CEBPA, BRCA1, BUB1, CD58, and VDR by real-time PCR (p < 0.05).ConclusionsKnown and novel targets of PRKG2 were identified as enriched pathways in this study. This study indicates that loss of PRKG2 function results in differential expression of P53 regulated genes as well as additional pathways consistent with increased proliferation and apoptosis in the growth plate due to achondroplastic dwarfism.Electronic supplementary materialThe online version of this article (doi:10.1186/s13104-015-1136-6) contains supplementary material, which is available to authorized users.
Highlights
Kinase activity of cyclic guanosine monophosphate (cGMP)-dependent, type II, protein kinase (PRKG2) is required for the proliferative to hypertrophic transition of growth plate chondrocytes during endochondral ossification
We focused on pathway analysis of the photomechanical transfer unit (PMT) 70 differentially expressed (DE) gene list, because it appeared the most valid based on the p-value histogram
DAVID results indicated that specific transcripts involved in apoptosis, cellular hypertrophy, Deoxyribonucleic acid (DNA) damage repair, and proliferation are differentially enriched as a result of bovine achondroplasia The enrichment results from DAVID identified global changes in gene expression related to cell development, proliferation, and death
Summary
Kinase activity of cGMP-dependent, type II, protein kinase (PRKG2) is required for the proliferative to hypertrophic transition of growth plate chondrocytes during endochondral ossification. Loss of PRKG2 function in rodent and bovine models results in dwarfism. The objective of this study was to identify pathways regulated or impacted by PRKG2 loss of function that may be responsible for disproportionate dwarfism at the molecular level. PRKG2 is a key regulatory kinase in the proper temporal and spatial development of growth plate cartilage. Loss of PRKG2 function results in a disorganized mixture of hypertrophic and proliferative chondrocytes instead of the highly organized columnar array observed in properly formed growth plates [1]. The functional role of PRKG2 in growth plate development is highly conserved across species.
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